Abstract Objective and Impact Statement. We present a fully automated hematological
analysis framework based on single-channel (single-wavelength), label-free deep-ultraviolet …

Deep-ultraviolet (UV) microscopy enables label-free, high-resolution, quantitative molecular
imaging and enables unique applications in biomedicine, including the potential for fast …

X-ray crystallography and structure-based drug discovery have played a major role in the
discovery of antisickling agents that target hemoglobin (Hb) for the treatment of sickle cell …

Neutropenia is a condition comprising an abnormally low number of neutrophils, a type of
white blood cell, which puts patients at an increased risk of severe infections. Neutropenia is …

Quantitative phase microscopy (QPM) has been emerged as an indispensable diagnostic
and characterization tool in biomedical imaging with its characteristic nature of label‐free …

Label-free imaging technology is a trending way to simplify and improve conventional
hematology analysis by bypassing lengthy and laborious staining procedures. However, the …

Blood analysis through complete blood count is the most basic medical test for disease
diagnosis. Conventional blood analysis requires bulky and expensive laboratory facilities …

Deep-UV microscopy enables high-resolution, label-free molecular imaging by leveraging
biomolecular absorption properties in the UV spectrum. Recent advances in UV-imaging …

Quantitative phase microscopy (QPM), as a label‐free and nondestructive technique, has
been playing an indispensable tool in biomedical imaging and industrial inspection. Herein …

Hemoglobin and red blood cells (erythrocytes) have been studied extensively from the
perspective of life and biomedical sciences. However, no analysis of hemoglobin and red …